Abstract: Provided are a thin film transistor substrate which include a substrate, a buffer layer and a thin film transistor, a display apparatus including the thin film transistor substrate, and a method of manufacturing the display apparatus including the thin film transistor substrate. The buffer layer includes an inorganic insulating layer. An area ratio of a peak corresponding to an N—H bond in the buffer layer is 0.5% or less based on a total peak area in a Fourier transform infrared spectroscopy (FTIR).

Abstract: A memory device includes: a semiconductor column extending vertically on a substrate and including a source region of a first conductivity type, an intrinsic region, and a drain region of a second conductivity type; a first gate electrode disposed adjacent to the drain region to cover the intrinsic region; a second gate electrode spaced apart from the first gate electrode and disposed adjacent to the source region to cover the intrinsic region; a first gate insulating layer disposed between the first gate electrode and the intrinsic region; and a second gate insulating layer disposed between the second gate electrode and the intrinsic region.

Abstract: A memory device, an operating method of the memory device, and a fabricating method of the memory device are provided. A memory device includes: a semiconductor column extending vertically on a substrate and including a source region of a first conductivity type, an intrinsic region, and a drain region of a second conductivity type; a first gate electrode disposed adjacent to the drain region to cover the intrinsic region; a second gate electrode spaced apart from the first gate electrode and disposed adjacent to the source region to cover the intrinsic region; a first gate electrode disposed between the first gate electrode and the intrinsic region; and a second gate insulating layer disposed between the second gate electrode and the intrinsic region.

Abstract: A transistor using a single crystal silicon nanowire and a method for fabricating the transistor is disclosed. The transistor using a single crystal silicon nanowire comprises a substrate and a single crystal silicon nanowire formed on the substrate. Here, the single crystal silicon nanowire comprises a source region and a drain region formed longitudinally with the single crystal silicon nanowire and separate from each other, and a channel region located between the source region and the drain region, wherein the perpendicular thickness of the channel region to the longitudinal direction is thinner than the thickness of the source region and the drain region.

Abstract: A transistor using a single crystal silicon nanowire and a method for fabricating the transistor is disclosed. The transistor using a single crystal silicon nanowire comprises a substrate and a single crystal silicon nanowire formed on the substrate. Here, the single crystal silicon nanowire comprises a source region and a drain region formed longitudinally with the single crystal silicon nanowire and separate from each other, and a channel region located between the source region and the drain region, wherein the perpendicular thickness of the channel region to the longitudinal direction is thinner than the thickness of the source region and the drain region.